Hubble Space Telescope NICMOS and WFPC2 Images of the HH 1 Jet: A Comparative Study

Details Hubble Space Telescope NICMOS and WFPC2 Images of the HH 1 Jet: A Comparative Study Hubble Space Telescope NICMOS and WFPC2 Images of the HH 1 Jet: A Comparative Study

May 2000

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000apj...534..317r&link_type=abstract

The Astrophysical Journal, Volume 534, Issue 1, pp. 317-323.

Astronomy and Astrophysics

Astronomy

26

Infrared: Ism: Lines And Bands, Ism: Jets And Outflows, Stars: Formation, Stars: Mass Loss

Scientific paper

We present new Hubble Space Telescope (HST) NICMOS images of the source region of the HH 1/2 flow. The HH 1 jet is traced in the [Fe II] 1.64 μm and the H2 2.12 μm lines to about 2.5" of the deeply embedded VLA source. In general, the structure of the jet is similar in H2 and [Fe II], with all the features having comparable brightness in both species. However, there is a gradient in the H2/[Fe II] ratio which increases with distance from the source. We also compare our infrared images with almost contemporary HST WFPC2 images in Hα and [S II]. The ratio of [Fe II] to [S II], both low-excitation tracers of weak shocks, is almost constant along the visible part of the jet but then increases by an order of magnitude where the optical jet disappears. If this is due to reddening, then the extinction, AV, increases by at least 4 mag in a space of 0.9", corresponding to 420 AU. Beyond this obscuring ridge, we detect five more infrared knots. Less than 2" now separate the infrared jet and the tip of the compact 3.6 cm radio continuum jet centered on the VLA source. The heavy extinction which obscures the base of the IR jet is probably due to the compact cloud core recently detected in HCO+. The jet is observed to steadily increase in width, and we argue that this is either due to sideways ejection of shocked material from internal working surfaces or a sonic expansion of the hot jet beam. Surprisingly, the width of the jet is the same to within measurement errors in H2 and [Fe II], contrary to the expectations of some models. Two small, previously detected off-axis knots appear to form an independent HH flow, which we call HH 501. An infrared cometary nebula (dubbed the X nebula) is found next to the HH 1 jet, along a line through the HH 501 knots, possibly supporting earlier speculations that yet one more source exists in the region. However, new proper motions of the HH 501 flow suggest an origin of these knots near VLA 1, and it is therefore possible that the VLA 1 source itself may be a close binary, thus forming a triple system with the more distant VLA 2. Based on observations made with the NASA/ESA Hubble Space Telescope at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy Inc., under NASA contract NAS 5-26555.

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